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        <h2 class="margin-top margin-bottom">Core Technological Innovations<br />Ultrasound System</h2>
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          Our approach is built on a foundation of purpose-driven design, prioritizing essential neurovascular imaging requirements while leveraging compact,
          cost-effective technology.
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          This philosophy allows us to deliver high sensitivity, sufficient spatiotemporal resolution, and robustness for mobile recordings without the bulk and
          expense of conventional systems.
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          <h2>Miniaturization Engineering</h2>
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            We achieved a radical reduction in system footprint and cost by integrating transmit/receive functions using compact semiconductor technology. This
            includes a low-noise power supply and efficient data transfer modules, all optimized for preclinical neuroimaging
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          <h2>Ultrafast Plane-Wave Imaging</h2>
          <span>
            It utilizes ultrafast plane-wave imaging, transmitting at multiple distinct angles and compounding the resulting B-mode images. This technique,
            combined with high pulse repetition frequencies (up to 5 kHz), enables high temporal resolution and a wide field-of-view, crucial for capturing
            dynamic brain activity.
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          <h2>GPU-Accelerated Real-Time Processing</h2>
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            Our system features a highly efficient real-time beamforming strategy implemented on a graphics processing unit (GPU). This allows for handling
            compounded plane-wave imaging at frame rates exceeding 1 kHz.
          </span>
          <span>
            Furthermore, our fast Singular Value Decomposition (SVD) clutter filter, with optimized matrix operations, triples processing speed compared to
            standard methods, enabling robust whole-brain functional imaging at behaviorally relevant frame rates.
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          <h2>Advanced System Architecture & Signal Quality</h2>
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            The modular hardware provides flexibility and a foundation for future 3D applications. A low-jitter (&lt;500 fs RMS) 50-MHz clock ensures
            synchronized multi-channel acquisition, critical for precise beam steering and high signal-to-noise ratio,
          </span>
          <span>enabling the detection of subtle neurovascular changes..</span>
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